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Assignments

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis

Assignment 2: Generators

  • Assignment
  • Time for questions: See schedule.
  • Hand in latest Tuesday, 18 February, 13.00.
  • Important results and mistakes will be presented and discussed in an exercise session, see schedule.

  • Key to the comments in the marked assignments:

    • a) Stator, power supply, magnetic field
    • b) Induction
    • c) Rotor current
    • d) Magnetic fields of rotor and stator interact
    • e) Interaction leads to changes in stator current
    • These five steps are essential when explaining how a sqirrel-cage induction machine works; for example, one cannot explain that the generator feeds active power into the grid without explaining that the rotor exhibits a magnetic fields that interacts with the stator field. To explain that the rotor exhibits a magnetic field when rotating faster than synchronous speed, one needs to explain why there is a current flowing in the rotor bars. That one can only be caused by a voltage. Therefore one cannot get around induction. Because induction requires a changing magnetic flux, one needs to explain how the magnetic field of stator looks like. And to explain that it is a rotating field of constant magnitude one needs to tell how the stator windings are connected to to a three-phase voltage supply (grid).
    • Hence, the two main challenges of the assignment were to identify and to explain all steps that are necessary for understanding.
    • Properly explaining those important steps gained 0.5 points per step (a-d). Because the last step is quite difficult we decided that all solutions that did not already receive maximum amount of points (2.5 points) gain 0.5 points in addition.
  • Here you will find a good picture that I would have liked to show you when we discussed how to connect the stator of an induction machine. Now, it should be clear where the current "enters" and "exits" a coil if the voltage of the specific phase is positive. E.g. if the current of phase U is positive, the current enters coil U at U and exits it on the opposite side. If the current  is negative, it will be the other way round.

Assignment 3: Grid integration

Assignment 4: Blade design + Assignment 5: Hybrid systems

  • Assignment 4
  • Assignment 5
  • Time for questions: See schedule.
  • Hand in latest Friday, 11 April, 15.00.
  • Important results and mistakes will be presented and discussed in an exercise session, see schedule.
  • Ezgi Uzuncan is the teaching assistant for this assignment.

Camille Hamon skapade sidan 3 februari 2012

Camille Hamon redigerade 3 februari 2012

Assignment 1

Assignment 1 (PDF)

Assignment 2¶

Assignment 2(PDF)¶

Camille Hamon ändrade rättigheterna 3 februari 2012

Kunde läsas av alla inloggade användare. Kunde ändras av lärare.
Camille Hamon redigerade 6 februari 2012

Assignment 1

Assignment 1 (PDF)

Assignment 2

Assignment 2(PDF)

Camille Hamon redigerade 7 februari 2012

Assignment 1

Assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Camille Hamon redigerade 7 februari 2012

Assignment 1

Assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Camille Hamon redigerade 16 februari 2012

Assignment 1

Assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Camille Hamon redigerade 26 februari 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)¶

 Assignment 2

Assignment 2 (PDF)

Camille Hamon redigerade 29 februari 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Assignment 3¶

Assignment 3 (PDF)¶

Camille Hamon redigerade 1 mars 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Assignment 3

Assignment 3 (PDF)

kommenterade 13 mars 2012

Assignment 2 are now in STEX. 

Anmäl missbruk
Camille Hamon redigerade 21 mars 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Comments on assignment 2 (PDF)¶

 Assignment 3

Assignment 3 (PDF)

Camille Hamon redigerade 26 mars 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Comments on assignment 2 (PDF)Calculating Thevenin equivalents (PDF)

Assignment 3

Assignment 3 (PDF)

Assignment 3¶

Assignment 4 (PDF)¶

Camille Hamon redigerade 27 april 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Comments on assignment 2 (PDF)Calculating Thevenin equivalents (PDF)

Assignment 3

Assignment 3 (PDF)

Assignment 34

Assignment 4 (PDF)

Assignment 5¶

Assignment 5 (PDF)¶

Camille Hamon redigerade 27 april 2012

Assignment 1

Assignment 1 (PDF)

Comments on assignment 1 (PDF)

Assignment 2

Assignment 2 (PDF)

Comments on assignment 2 (PDF)Calculating Thevenin equivalents (PDF)

Assignment 3

Assignment 3 (PDF)Comments on assignment 3 (PDF) 

Assignment 4

Assignment 4 (PDF)Comments on assignment 4 (PDF) 

Assignment 5

Assignment 5 (PDF)

Assistent kommenterade 18 februari 2013

The corrected assignments 1 will be given out at the end of tomorrow's (tuesday) lecture. If you cannot come to the lecture, you can pick up your assignments from STEX from Wednesday.

Anmäl missbruk
Camille Hamon redigerade 4 mars 2013

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis

For parts of the assignment you need Camille's lecture on Wednesday, 30th of January.  But you can already begin to work on the first part of the assignment.

Here, you can download the instructions as well as necessary Matlab functions and data files.

The assistance time for this assignment is on Friday 1 February, 10.15 to 11.00 in the Seminar room (room located to the right of the student room) at Teknikringen 33.

Assignment 2: Grid computations


* Assignment 2
* You will need the compendium "Static analysis of power systems" to solve this assignment. It can be found in the lecture notes for Lecture 5.
* The assistant will be available during the same time as for the review of assignment 1, that is, on Tuesday 19 February, 13.00 - 15.00 in H1.
Assignment 3: Power generation technology¶


* Assignment 3

Richard Scharff redigerade 12 mars 2013

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis


* For parts of the assignment you need Camille's lecture on Wednesday, 30th of January.  But you can already begin to work on the first part of the assignment.

 * Here, you can download the instructions as well as necessary Matlab functions and data files.

 * The assistance time for this assignment is on Friday 1 February, 10.15 to 11.00 in the Seminar room (room located to the right of the student room) at Teknikringen 33.

 Assignment 2: Grid computations


* Assignment 2
* You will need the compendium "Static analysis of power systems" to solve this assignment. It can be found in the lecture notes for Lecture 5.
* The assistant will be available during the same time as for the review of assignment 1, that is, on Tuesday 19 February, 13.00 - 15.00 in H1.
Assignment 3: Power generation technology


* Assignment 3
* The assistant will be available in his office (Teknikringen 33, EPS department, first flothe large conference room at EPS (Teknikringen 33, first floor, middle of the corridor) on Tuesday 19 March, 10.00 - 11.00.

Assistent kommenterade 27 mars 2013

You can now pick up your corrected assignments 2 in STEX.

Anmäl missbruk
Assistent kommenterade 8 april 2013

The corrected assignments 3 will be given out at the end of tomorrow's (tuesday) lecture. If you cannot come to the lecture, you can pick up your assignments from STEX from Wednesday. The maximum available points were:

  • 1 point for question 1
  • 1 point for question 2
  • 0.5 points for question 3
Anmäl missbruk
Camille Hamon redigerade 28 januari 2014

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis


* Assignment (PDF)
* Necessary data (Matlab and Excel format) and Matlab files
* Time for questions: See schedule.
* Hand in latest Friday, 31 January, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 2: Generators


* Time for questions: See schedule.
* Hand in latest Tuesday, 18 February, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 3: Grid integration


* Time for questions: To be announced.
* Hand in latest Wednesday, 5 Mars, 10.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 4: Blade design + Assignment 5: Hybrid systems


* Time for questions: See schedule.
* Hand in latest Friday, 11 April, 15.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.

Assistent kommenterade 28 januari 2014

For those of you who want to use Excel, the data for the part about energy calculations in assignment 1 is now available as an Excel file. You just have to re-download the zip file.

Anmäl missbruk
Richard Scharff redigerade 7 februari 2014

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis


* Assignment (PDF)
* Necessary data (Matlab and Excel format) and Matlab files
* Time for questions: See schedule.
* Hand in latest Friday, 31 January, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 2: Generators


* Assingment
 * Time for questions: See schedule.
* Hand in latest Tuesday, 18 February, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 3: Grid integration


* Time for questions: To be announced.
* Hand in latest Wednesday, 5 Mars, 10.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 4: Blade design + Assignment 5: Hybrid systems


* Time for questions: See schedule.
* Hand in latest Friday, 11 April, 15.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.

Assistent kommenterade 14 februari 2014

Those of you who haven't got their assignment 1 can pick it up at the student office STEX.

https://www.kth.se/ees/utbildning/2.6384/stex-studerandeexpeditionen-1.21727

Anmäl missbruk
kommenterade 25 februari 2014

Will there be a teaching assistance time for Assignment III?

Anmäl missbruk
Assistent kommenterade 25 februari 2014

Yes, we will announce it very soon when it is.

Anmäl missbruk
Assistent kommenterade 26 februari 2014

The compendium "Static Analysis of Power Systems" has now been uploaded. You will need it for assignment 3.

Anmäl missbruk
Assistent kommenterade 26 februari 2014

The assistance time for assignment 3 will be on Friday 28 february, 10-11 in H1. The schedule has been updated.

Anmäl missbruk
Richard Scharff redigerade 27 februari 2014

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis


* Assignment (PDF)
* Necessary data (Matlab and Excel format) and Matlab files
* Time for questions: See schedule.
* Hand in latest Friday, 31 January, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 2: Generators


* Assignment
* Time for questions: See schedule.
* Hand in latest Tuesday, 18 February, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
* Key to the comments in the marked assignments:


* a) Stator, power supply, magnetic field
* b) Induction
* c) Rotor, current in short-circuit bars
* d) Magnetic fields of rotor and stator interact
* e) Interaction leads to changes in stator current
Properly explaining those important steps gained 0.5 points per step.


* Here you will find a picture that I should have shown you when we discussed how to connect the stator of an induction machine. Now, it should be clear where the current "enters" and "exits" a coil if the voltage of the specific phase is positive. E.g. if the current of phase U is positive, the current enters coil U at U and exits it on the opposite side. If the current  is negative, it will be the other way round.
Assignment 3: Grid integration


* Assignment (PDF)
* Static Analysis of Power Systems (PDF) (password: hornsrev)
* Time for questions: See schedule.
* Hand in latest Wednesday, 5 Mars, 10.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 4: Blade design + Assignment 5: Hybrid systems


* Time for questions: See schedule.
* Hand in latest Friday, 11 April, 15.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.

Richard Scharff redigerade 28 februari 2014

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis


* Assignment (PDF)
* Necessary data (Matlab and Excel format) and Matlab files
* Time for questions: See schedule.
* Hand in latest Friday, 31 January, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 2: Generators


* Assignment
* Time for questions: See schedule.
* Hand in latest Tuesday, 18 February, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
* Key to the comments in the marked assignments:


* a) Stator, power supply, magnetic field
* b) Induction
* c) Rotor, current in short-circuit bars
* d) Magnetic fields of rotor and stator interact
* e) Interaction leads to changes in stator current
Properly explaining those important steps gained 0.5 points per step
These five steps are essential when explaining how a sqirrel-cage induction machine works; for example, one cannot explain that the generator feeds active power into the grid without explaining that the rotor exhibits a magnetic fields that interacts with the stator field. To explain that the rotor exhibits a magnetic field when rotating faster than synchronous speed, one needs to explain why there is a current flowing in the rotor bars. That one can only be caused by a voltage. Therefore one cannot get around induction. Because induction requires a changing magnetic flux, one needs to explain how the magnetic field of stator looks like. And to explain that it is a rotating field of constant magnitude one needs to tell how the stator windings are connected to to a three-phase voltage suppöy (grid).¶

Hence, the two main challenges of the assignment were to identify and to explain all steps that are necessary for understanding.¶

Properly explaining those important steps gained 0.5 points per step (a-d). Because the last step is quite difficult we decided that all solutions that did not already receive maximum amount of points (2.5 points) gain 0.5 points in addition.


* Here you will find a good picture that I shwould have liked to shown you when we discussed how to connect the stator of an induction machine. Now, it should be clear where the current "enters" and "exits" a coil if the voltage of the specific phase is positive. E.g. if the current of phase U is positive, the current enters coil U at U and exits it on the opposite side. If the current  is negative, it will be the other way round.
Assignment 3: Grid integration


* Assignment (PDF)
* Static Analysis of Power Systems (PDF) (password: hornsrev)
* Time for questions: See schedule.
* Hand in latest Wednesday, 5 Mars, 10.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 4: Blade design + Assignment 5: Hybrid systems


* Time for questions: See schedule.
* Hand in latest Friday, 11 April, 15.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.

Camille Hamon redigerade 27 mars 2014

The assignments will be uploaded in time on this page.

Assignment 1: Wind Data Analysis


* Assignment (PDF)
* Necessary data (Matlab and Excel format) and Matlab files
* Time for questions: See schedule.
* Hand in latest Friday, 31 January, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 2: Generators


* Assignment
* Time for questions: See schedule.
* Hand in latest Tuesday, 18 February, 13.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
* Key to the comments in the marked assignments:


* a) Stator, power supply, magnetic field
* b) Induction
* c) Rotor current
* d) Magnetic fields of rotor and stator interact
* e) Interaction leads to changes in stator current
* These five steps are essential when explaining how a sqirrel-cage induction machine works; for example, one cannot explain that the generator feeds active power into the grid without explaining that the rotor exhibits a magnetic fields that interacts with the stator field. To explain that the rotor exhibits a magnetic field when rotating faster than synchronous speed, one needs to explain why there is a current flowing in the rotor bars. That one can only be caused by a voltage. Therefore one cannot get around induction. Because induction requires a changing magnetic flux, one needs to explain how the magnetic field of stator looks like. And to explain that it is a rotating field of constant magnitude one needs to tell how the stator windings are connected to to a three-phase voltage supply (grid).
* Hence, the two main challenges of the assignment were to identify and to explain all steps that are necessary for understanding.
* Properly explaining those important steps gained 0.5 points per step (a-d). Because the last step is quite difficult we decided that all solutions that did not already receive maximum amount of points (2.5 points) gain 0.5 points in addition.

* Here you will find a good picture that I would have liked to show you when we discussed how to connect the stator of an induction machine. Now, it should be clear where the current "enters" and "exits" a coil if the voltage of the specific phase is positive. E.g. if the current of phase U is positive, the current enters coil U at U and exits it on the opposite side. If the current  is negative, it will be the other way round.
Assignment 3: Grid integration


* Assignment (PDF)
* Static Analysis of Power Systems (PDF) (password: hornsrev)
* Time for questions: See schedule.
* Hand in latest Wednesday, 5 Mars, 10.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.
Assignment 4: Blade design + Assignment 5: Hybrid systems


* Assignment 4
* Assignment 5
 * Time for questions: See schedule.
* Hand in latest Friday, 11 April, 15.00.
* Important results and mistakes will be presented and discussed in an exercise session, see schedule.